Front End Test Stand (F.E.T.S.) Engineering Progress Report

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Presentation transcript:

Front End Test Stand (F.E.T.S.) Engineering Progress Report for UKNFIC by P. Savage 24th April 2008

Front End Test Stand (F.E.T.S.) Radio Frequency Quadrupole (R.F.Q.) Laser Based Emittance Measurement System Beam Profile Measurement Chopper Low Energy Beam Transport (L.E.B.T.) Ion Source

Ion source H. V. cage constructed now. H. V. platform in R8

The beam profile measurement tank design 6 x Turbovac MAG W830 Rail system Turbovac 340M Solenoid Mirror motor cradle 900 magnets and faraday cup Lifting lugs Toroid Noryl isolator CF100 cable port Door chassis Ion source flange KF40 laser port CF160 vacuum port

First tank + L.E.B.T. Low Energy Beam Transport (L.E.B.T.) 3 solenoid magnetic L.E.B.T., support structure and rail system currently being manufactured. To be delivered end of May. Vee blocks for remaining 5 support stands to be delivered on 14th March.

Radio Frequency Quadrupole (R.F.Q.) 4m long 324 MHz 4-vane RFQ concept design. Next phase, the engineering design to begin September 2008. 0.5m long 324 MHz 4-vane cold model RFQ currently being tested at Imperial.

High speed beam chopper Mike Clarke-Gayther Ciprian Plostinar A novel tandem chopper technique has been developed at RAL to overcome the conflicting requirements of fast rise time (< 2ns) and long flat-top (up to 100 s). A ‘fast’ chopper creates a short, clean gap in which a ‘slow’ chopper can switch on. The fast pulser is limited in flat-top but can switch between bunches. The slow pulser cannot switch between pulses but can generate the required flat-top. Fast and slow chopper modules Chopper 1 (fast transition) Chopper 2 / Beam dump (slower transition) BEAM

IAP Frankfurt laser transverse emittance measurement system Christoph Gabor Jürgen Pozimski IAP Frankfurt laser transverse emittance measurement system will be adapted to the FETS requirements. Schematic drawing of the set up to determine non destructively the transversal beam emittance, using laser detachment technique. Distribution of the neutralized ions on the scintillating screen.